For stopping a zip line trolley, a zip line braking system includes an impact device, a non-zip liner parallel cable, a freewheeling pulley, a tether, and at least one spring. The impact device rides on a zip line cable, wherein the impact device is positioned down the zip line cable from a zip line trolley that rides on the zip line cable. The impact device does not ride on the non-zip liner parallel cable. The tether connects the impact device to a first freewheeling pulley. The impact device applies a force to the first freewheeling pulley via the tether in response to a zip line trolley contacting the freewheeling pulley. The at least one spring is disposed on the non-zip liner parallel cable and slows the freewheeling pulley, wherein the freewheeling pulley decelerates the impact device and the zip line trolley via the tether to a stop.

For stopping a zip line trolley, a zip line braking system includes an impact device, a non-zip liner parallel cable, a freewheeling pulley, a tether, and at least one spring. The impact device rides on a zip line cable, wherein the impact device is positioned down the zip line cable from a zip line trolley that rides on the zip line cable. The impact device does not ride on the non-zip liner parallel cable. The tether connects the impact device to a first freewheeling pulley. The impact device applies a force to the first freewheeling pulley via the tether in response to a zip line trolley contacting the freewheeling pulley. The at least one spring is disposed on the non-zip liner parallel cable and slows the freewheeling pulley, wherein the freewheeling pulley decelerates the impact device and the zip line trolley via the tether to a stop.

An elevated railway-like transport system. The system includes a carrier system with rail-like or cable-like carrier elements that are fastened in the area of portal-like support elements, and includes self-propelled carriages, each of which includes a drive unit that cooperates with the carrier elements, and a gondola that is connected to the drive unit via a carrier device, preferably in the form of a carrying arm, and that is used for passenger transport and/or cargo transport. The carriages are movable independently of one another along the carrier elements, and a distance is formed between two successive carriages on the same carrier element.

An elevated railway-like transport system. The system includes a carrier system with rail-like or cable-like carrier elements that are fastened in the area of portal-like support elements, and includes self-propelled carriages, each of which includes a drive unit that cooperates with the carrier elements, and a gondola that is connected to the drive unit via a carrier device, preferably in the form of a carrying arm, and that is used for passenger transport and/or cargo transport. The carriages are movable independently of one another along the carrier elements, and a distance is formed between two successive carriages on the same carrier element.

A ropeway or cable system is disclosed having at least two cable loops (1,20) that form a track, a first loop extending directly between two end station embarking or disembarking stations of the track, and a second loop extending between the two end stations via intermediate embarking or disembarking stations) or turning towers on the track. A vehicle (2) is carried from a loop, the vehicle (2) having a cable gripping mechanism (37, 38, 43, 44), the cable gripping mechanism being capable of switching attachment of the vehicle between two or more cable loops (1,20), so as to change the loop that carries the vehicle (2).

A ropeway or cable system is disclosed having at least two cable loops (1,20) that form a track, a first loop extending directly between two end station embarking or disembarking stations of the track, and a second loop extending between the two end stations via intermediate embarking or disembarking stations) or turning towers on the track. A vehicle (2) is carried from a loop, the vehicle (2) having a cable gripping mechanism (37, 38, 43, 44), the cable gripping mechanism being capable of switching attachment of the vehicle between two or more cable loops (1,20), so as to change the loop that carries the vehicle (2).

The present disclosure provides a self-traction wire coating robot and a wire routing and wire hanging method, wherein the robot includes a mounting plate, a material pushing module, a winding traction module, a coating module, a walking module and a power supply and control module, wherein the coating module and the walking module are rotatable in the extension direction of the non-overhead bare wires, when hanging wires, the coating module and the walking module are first rotated and swung to the side of the robot, an unmanned device is then used to hang a traction belt on the overhead bare wires, the winding traction module tightens the traction belt to hang the robot under the overhead bare wires, and then the coating module and the walking module are controlled to rotate and recover to the top of the robot and hang the robot on the overhead bare wire.

The present disclosure provides a self-traction wire coating robot and a wire routing and wire hanging method, wherein the robot includes a mounting plate, a material pushing module, a winding traction module, a coating module, a walking module and a power supply and control module, wherein the coating module and the walking module are rotatable in the extension direction of the non-overhead bare wires, when hanging wires, the coating module and the walking module are first rotated and swung to the side of the robot, an unmanned device is then used to hang a traction belt on the overhead bare wires, the winding traction module tightens the traction belt to hang the robot under the overhead bare wires, and then the coating module and the walking module are controlled to rotate and recover to the top of the robot and hang the robot on the overhead bare wire.

An aerial sky tram system includes a plurality of towers, a cable track suspended from the plurality of towers by a support cable, and a sky tram coupled to the cable track. The sky tram includes a plurality of rotors that propel the sky tram along the cable track.

An aerial sky tram system includes a plurality of towers, a cable track suspended from the plurality of towers by a support cable, and a sky tram coupled to the cable track. The sky tram includes a plurality of rotors that propel the sky tram along the cable track.